TWM267437U - Modular heat dissipation device - Google Patents

Description

M267437 VIII. New type description: [Technical field to which the new type belongs] This creation is about a radiator, especially a modular radiator. 5 [Prior art] Please refer to FIG. 1, which is a rear view of a conventional radiator. As shown in the figure, the traditional heat sink 1 has its heat exchange tubes 10 arranged in an offset manner, causing the heat exchange officer 10 to block the flow of the fan 11. Field, causing the wind resistance between the fan ii and the radiator 丨 to be greater, and because the heat exchange tubes 10 of the radiator 1 are arranged in an offset manner, the volume of the overall radiator 1 is larger. Please refer to FIG. 2, which is a perspective view of a conventional liquid-cooled computer radiator. As shown in the figure, the heat-exchange tube 10 of the liquid-cooled computer radiator 丨 is integrally fixed in the cooling fin 12 so that the front row The heat exchange tube 10 with the rear row, and the heat flow area 13 and the secondary heat flow area 14 formed by being close to the fan 11 or not, will cause direct heat conduction on the heat dissipation fins 15 and 12, which will affect the overall heat sink. Thermal efficiency. In addition, the heat exchange tube of the liquid-cooled computer radiator

, Without the possibility of contingency design and expansion, is not very ideal. [New content] Module, this creative department provides a modular radiator, which is arranged next to each other; including: at least two heat sinks, each heat sink module includes M267437, multiple heat sinks, multiple heat sinks The heat-dissipating fins of the exchange tube, two fixing plates, a plurality of first V-tubes, and a plurality of second elbows are arranged parallel to each other horizontally, and are spaced a certain distance from each other in the longitudinal direction. A plurality of longitudinal through holes corresponding to each other, and the heat exchange tubes 5 are parallel to each other and are respectively longitudinally disposed in the aforementioned longitudinal through holes. In addition, the above two fixing plates are respectively arranged in parallel on the first: longitudinal side and the longitudinal outside of the heat dissipation fin. The two fixing plates are provided with a plurality of longitudinal through holes, which are respectively correspondingly sleeved on the heat exchange tubes. The outer wall at the two ends, and a plurality of first elbow pipes are respectively connected to the two adjacent heat exchanges of the first longitudinal outer side, and a plurality of second elbow pipes are respectively connected to the two adjacent heat exchanges on the second longitudinal outer side. Between the exchange pipes, the first elbow and the second elbow are staggered, and are connected in series with the heat exchange tube to form a continuous S-shaped pipeline. Each S-shaped pipeline includes an inlet, and an Export. In addition, the modular radiator of this creation includes at least one connection 15 ′, which is connected to the inlet of the S-type pipeline of the next cooling module by the outlet of the S-type pipeline of one of the above-mentioned cooling modules. In this case, the wind resistance caused by the misaligned arrangement of the heat exchange tubes can be avoided by using at least two heat dissipation modules and at least one connection pipe 'which are mutually arranged, so as to reduce the use volume of the overall heat sink. In addition, the heat sink module is designed in a modular manner, and can be added according to different needs. This can increase the possibility of strain design and expansion of the heat sink. In addition, the module-designed and arranged heat-dissipation modules can improve the conventional problem of direct heat conduction, and can improve the heat-dissipation efficiency of the overall heat sink. As mentioned above, M267437 may further include at least one fan, which can provide a first-rate dynamic air flow field parallel to the heat dissipation fins and flowing through a certain distance of the heat dissipation fins. The aforementioned at least one fan may be arranged on the same outer side after the at least two heat dissipation modules are arranged, or may be arranged between the at least two heat dissipation modules. 5 In addition, the above at least two heat dissipation modules can be stacked side by side with each other, and two adjacent fixing plates can be respectively provided with a fixing tab at their adjacent inner edges and fixedly combined with each other. Among them, Two adjacent fixing pieces can be respectively provided with a fixing hole, and can be locked by a screw passing through the two fixing holes, or can be locked with a nut, or can be directly fixed by tapping in the fixing hole. 10 In addition, at least one heat insulation gasket may be arranged between two adjacent fixing pieces, so that the thermal energy of the heat flow area and the secondary heat flow area can be effectively separated. [Embodiment] Please refer to FIG. 3, FIG. 4, and FIG. 5, which are respectively a front view of a preferred embodiment of a 15-piece heat sink and a perspective view of a modular heat sink of the present invention. And the top view of the modular radiator of a preferred embodiment of this creation. In this example, a modular radiator 2 is shown, which includes two cooling modules 3, a connecting pipe 35o, and a fan 36. . The above-mentioned two heat dissipation modules 3 are stacked one on top of the other side by side. The 20-per-radiation module 3 includes a plurality of heat sinks 30, a plurality of heat exchange ^ 31, two fixing plates 32, and a plurality of first bends. Tube 33, and a plurality of second bends: 34. In this example, the heat dissipation fins 30 are arranged horizontally and parallel to each other, and two: are spaced a certain distance from each other, and each heat dissipation fin 30 is provided with a = friend M267437 corresponds to a plurality of vertical through holes 30 ί, and the heat exchange tubes 31 are parallel to each other and pass through the vertical through holes 301 respectively. 5 10 In addition, in this example, the two fixing plates 32 are respectively arranged in parallel to dissipate heat, the first longitudinal outer side 302 and the second longitudinal outer side 30 of the sheet 30, and the two fixed plates = a plurality of openings are provided. The longitudinal through holes 32G are respectively set on the outer walls of the two ends of the heat exchange tube 'as shown in the figure' and the first elbow ⑽ is connected between the first longitudinal outer side 302 bis adjacent to the heat exchange tube 3 ι. The second elbows 34 and 4 are respectively connected between the second longitudinal outer sides 3 0 3 bis adjacent heat exchange pipes w, and the first elbows 33 and the second elbows 34 are staggered and are respectively exchanged with heat The tubes 31 are connected in series to form a continuous s-shaped pipeline 35, and each s-shaped pipeline 35 includes an inlet 351 and an outlet 352. In addition, as shown in the figure, the connecting pipe 350 is connected to the inlet 351 of the type 3 pipeline of the next heat dissipation module 3 by the outlet 352 of the § type pipeline 35 of one of the heat dissipation modules 3 to form each heat dissipation module 3 Of concatenation. 5 In this example, the fan 36 is arranged on the same outer side after the two heat dissipation modules 3 are stacked side by side. It provides a flowing air flow field 36 parallel to the heat dissipation fins 30 'and the heat dissipation fins 30. A certain distance. As described above, the two adjacent fixing plates 32 are respectively provided with a fixing piece 321 on their adjacent inner edges 323 and fixedly combined with each other, and the two adjacent fixing pieces 321 are respectively provided with a fixing hole 322. A screw ^ is passed through the two fixing holes 322 for locking. Of course, it can be locked with a nut, or one of the fixing holes 322 can be directly locked by tapping. M267437 In this example, it also includes four heat insulation pads 38. The four heat insulation pads 38 are arranged between two adjacent fixing pieces 321 to make the heat flow between the two heat dissipation modules 3. The thermal energy between the zone and the sub-heat flow zone is effectively separated. Therefore, with the above structure, the wind resistance caused by the misaligned arrangement of the heat exchange tubes 5 can be avoided, and thus the use area of the overall modular radiator 2 can also be reduced. In addition, the heat dissipation module 3 is designed in a modular manner, and can be added and arranged according to different needs, so that the possibility of strain design and expansion of the modular heat sink 2 can be increased. In addition, the module-designed and arranged heat-dissipating branch group 3 can improve the conventional direct heat conduction problem, and can improve the heat dissipation efficiency of the overall modularized radiator 2. Please refer to FIG. 6, which is an exploded view of a modular heat sink according to another preferred embodiment of the present invention. The main structure is the same as the above embodiment, except that four heat dissipation modules 60 and 60 are used in this example. Three fans 6 丨 As shown in the figure, in addition to being directly stacked, the heat dissipation modules 60 can also be arranged at a distance of 15 back and forth from each other. In this way, in addition to achieving the various functions described in the above embodiments, the fans 61 groups Setting between the heat dissipation modules 60 can also accelerate the heat dissipation efficiency of the heat dissipation modules 60. The above embodiments are just examples for convenience of explanation. The scope of the rights claimed in this creation shall be based on the scope of the patent application, rather than being limited to the above embodiments. [Schematic description] FIG. 1 is a rear view of a conventional radiator. M267437 Figure 2 is a perspective view of a conventional radiator. FIG. 3 is a front view of the modular radiator of the present creative-reading embodiment. FIG. 4 is a perspective view of the modular heat sink of the present invention-the preferred embodiment. FIG. 5 is a top view of a modular heat sink according to the present invention. 5 FIG. 6 is an exploded view of a modular heat sink according to another preferred embodiment of the present invention. [Description of main component symbols] Radiator 1 Heat exchange tube 1 〇 Fan 11 Radiating fins 12 Heat flow area 13 Secondary heat flow area 14 Modular radiator 2 Radiating module 3 Radiating fin 30 Through hole 301 First longitudinal outer side 302 苐1 longitudinal outside 3 0 3 heat exchange pipe 3 1 fixing plate 32 through hole 320 fixing piece 321 fixing hole 322 inside edge 323 first bend 3 3 second bend 34 continuous S-shaped pipe 35 connection pipe 350 inlet 351 outlet 352 Fan 36 Flowing air flow field 360 Screw 37 Insulation pad 3 8 Cooling module 60 Fan 61

Claims (1)

M267437 9. Scope of patent application: 1. A modular heat sink including 5 10 15 20 at least two heat sinks, which are arranged next to each other; each heat sink includes a plurality of heat sink fins , A plurality of heat exchange tubes, two fixing plates, a plurality of first elbow tubes, and a plurality of second elbow tubes, the radiating fins are arranged parallel to each other horizontally and spaced a specific distance apart from each other in the longitudinal direction, and each The heat dissipation fins are provided with a plurality of longitudinal through holes corresponding to each other. The heat exchange pipes are parallel to each other and are longitudinally penetrated in the longitudinal through holes respectively. A fixed plate is arranged in parallel to the heat dissipation fins. The second longitudinal outer side and the second longitudinal outer side of the sheet, and the two fixing plates are provided with a plurality of longitudinal through holes, which are respectively correspondingly sleeved outside the two ends of the heat exchange tubes = the first-curved pipe systems are connected respectively Between the two adjacent second and parent pipes on the outer side of the first longitudinal direction, and the second elbow pipes are respectively connected between the second longitudinal eye adjacent heat exchange pipes, and the first f pipes are respectively connected with The company and separately with the heat The pipe is changed in series to form ― and quot; the mother-s-type pipe includes an inlet and an outlet; the mouth is connected to the official, which is the middle of the s-type pipe of the cooling module. 2 Next cooling mode The inlet of the S-type pipeline. Including the modular heat sink described in item 1 of the female patent, the more heat dissipation fins, which are provided-the flow of air flowing in parallel to a certain distance between the heat dissipation fins such as the Ya 5 Hai Too. 11 M267437 3. The modular heat sink as described in item 2 of the scope of patent application, wherein the at least one fan is arranged on the same outer side after the at least two heat dissipation modules are arranged. 4. The modular heat sink as described in item 2 of the patent scope of claim 5, wherein the at least one fan is arranged between the at least two heat dissipation modules. 5 · The modular heat sink according to item 1 of the scope of patent application, wherein the at least two heat dissipation modules are stacked side by side with each other, and two adjacent fixing plates are respectively located on adjacent inner edges thereof. A fixing piece is provided and fixedly combined with each other. 10 6. The modular heat sink as described in item 5 of the scope of the patent application, wherein the two adjacent fixing pieces are respectively provided with a fixing hole, and are fastened through the two fixing holes with a screw. 7. The modular heat sink according to item 5 of the scope of the patent application, further comprising at least one heat insulation gasket, the at least one heat insulation gasket is arranged between the two 15 adjacent fixing pieces. . 12